At the outbreak of World War I in 1914 he joined the army as a volunteer field medic. In 1917 he joined the Revolutionary movement and became an active anti-War campaigner, serving on revolutionary committees after the March Revolution.[3] He returned to the Moscow State University from which he graduated in 1918.

Tamm married Nataliya Shuyskaya in September 1917. They eventually had two children, Irina (1921–2009, chemist) and Evgeny (1926–2008, experimental physicist and famous mountain climber, leader of the Soviet Everest expedition in 1982[4]).

In 1932, Tamm published a paper with his proposal of the concept of surface states. This concept is important for MOSFET physics.

In 1934, Tamm and Semen Altshuller suggested that the neutron has a non-zero magnetic moment,[6][7] the idea was met with scepticism at that time, as the neutron was supposed to be an elementary particle with zero charge, and thus could not have a magnetic moment. The same year, Tamm coined an idea that proton-neutron interactions can be described as an exchange force transmitted by a yet unknown massive particle,[8][9] this idea was later developed by Hideki Yukawa into a theory of meson forces.

In 1945 he developed an approximation method for many-body physics. As Sidney Dancoff developed it independently in 1950, it is now called the Tamm-Dancoff approximation.

In 1951, together with Andrei Sakharov, Tamm proposed a tokamak system for the realization of CTF on the basis of toroidal magnetic thermonuclear reactor and soon after the first such devices were built by the INF. Results from the T-3 Soviet magnetic confinement device in 1968, when the plasma parameters unique for that time were obtained, showed temperatures in their machine to be over an order of magnitude higher than what was expected by the rest of the community. The western scientists visited the experiment and verified the high temperatures and confinement, sparking a wave of optimism for the prospects of the tokamak as well as construction of new experiments, which is still the dominant magnetic confinement device today.

^Ginzburg, V. L. (2005). About Science, Myself and Others. CRC Press. p. 253. ISBN9780750309929. Nowadays, when we are facing manifestations of religious and. more often, pseudoreligious feelings, it is appropriate to mention that Igor Evgenevich was a convinced and unreserved atheist.